English

Stellar mass functions and implications for a variable IMF

Astrophysics of Galaxies 2018-01-31 v2 Cosmology and Nongalactic Astrophysics

Abstract

Spatially resolved kinematics of nearby galaxies has shown that the ratio of dynamical- to stellar population-based estimates of the mass of a galaxy (MJAM/MM_*^{\rm JAM}/M_*) correlates with σe\sigma_e, if MM_* is estimated using the same IMF for all galaxies and the stellar M/L ratio within each galaxy is constant. This correlation may indicate that, in fact, the IMF is more dwarf-rich for galaxies with large σ\sigma. We use this correlation to estimate a dynamical or IMF-corrected stellar mass, MαJAMM_*^{\rm \alpha_{JAM}}, from MM_{*} and σe\sigma_e for a sample of 6×1056 \times 10^5 SDSS galaxies for which spatially resolved kinematics is not available. We also compute the `virial' mass estimate k(n,R)ReσR2/Gk(n,R)\,R_e\,\sigma_R^2/G, where nn is the Sersic index, in the SDSS and ATLAS3D^{\rm 3D} samples. We show that an nn-dependent correction must be applied to the k(n,R)k(n,R) values provided by Prugniel & Simien (1997). Our analysis also shows that the shape of the velocity dispersion profile in the ATLAS3D^{\rm 3D} sample varies weakly with nn: (σR/σe)=(R/Re)γ(n)(\sigma_R/\sigma_e) = (R/R_e)^{-\gamma(n)}. The resulting stellar mass functions, based on MαJAMM_*^{\rm \alpha_{JAM}} and the recalibrated virial mass, are in good agreement. If the MαJAM/MσeM_*^{\rm \alpha_{JAM}}/M_* - \sigma_e correlation is indeed due to the IMF, and stellar M/L gradients can be ignored, then our ϕ(MαJAM)\phi(M_*^{\rm \alpha_{JAM}}) is an estimate of the stellar mass function in which σe\sigma_e-dependent variations in the IMF across the population have been accounted for. Using a Fundamental Plane based observational proxy for σe\sigma_e produces comparable results. By demonstrating that cheaper proxies are sufficiently accurate, our analysis should enable a more reliable census of the mass in stars for large galaxy samples, at a fraction of the cost. Our results are provided in tabular form.

Keywords

Cite

@article{arxiv.1710.07296,
  title  = {Stellar mass functions and implications for a variable IMF},
  author = {M. Bernardi and R. K. Sheth and J. -L. Fischer and A. Meert and K. -H. Chae and H. Dominguez-Sanchez and M. Huertas-Company and F. Shankar and V. Vikram},
  journal= {arXiv preprint arXiv:1710.07296},
  year   = {2018}
}

Comments

17 pages, 19 figures, 4 tables. Accepted for publication by MNRAS. Tables 1, C1 and C2 are provided as ancillary files

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